Numerical Analysis of the Influence of Superconductor and Magnet Material Parameters on the Dynamic Stability of Maglev Systems

Chen Guang Huang; Bin Xu

doi:10.1088/1757-899X/649/1/012026

Numerical Analysis of the Influence of Superconductor and Magnet Material Parameters on the Dynamic Stability of Maglev Systems

Chen Guang Huang, Bin Xu

School of Mechanics,Civil Engineering and Architecture

Research output: Contribution to journal › Conference article › peer-review

2 Scopus citations

Abstract

In previous research, a two-dimensional numerical model based on Newton's second law and Maxwell's equations was developed to analyze the dynamic behavior of superconducting maglev systems. Studies showed that vibration and drift phenomena will occur in the vertical and lateral directions triggered by external disturbances, resulting in a change in the levitation point and even instability. In this paper, a numerical analysis is further carried out to alleviate these situations. The dependence of the drifts of vertical and lateral vibration centers of the levitated body upon system material parameters, such as the magnetization of permanent magnets and the critical current density of superconductor, is studied in terms of a power law model. In addition, the influence of the configuration of permanent magnets on the dynamic stability is analyzed.

Original language	English
Article number	012026
Journal	IOP Conference Series: Materials Science and Engineering
Volume	649
Issue number	1
DOIs	https://doi.org/10.1088/1757-899X/649/1/012026
State	Published - 17 Oct 2019
Event	2019 World Symposium on Smart Materials and Applications, WSSMA 2019 - Harbin, China Duration: 5 Jul 2019 → 7 Jul 2019

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title = "Numerical Analysis of the Influence of Superconductor and Magnet Material Parameters on the Dynamic Stability of Maglev Systems",

abstract = "In previous research, a two-dimensional numerical model based on Newton's second law and Maxwell's equations was developed to analyze the dynamic behavior of superconducting maglev systems. Studies showed that vibration and drift phenomena will occur in the vertical and lateral directions triggered by external disturbances, resulting in a change in the levitation point and even instability. In this paper, a numerical analysis is further carried out to alleviate these situations. The dependence of the drifts of vertical and lateral vibration centers of the levitated body upon system material parameters, such as the magnetization of permanent magnets and the critical current density of superconductor, is studied in terms of a power law model. In addition, the influence of the configuration of permanent magnets on the dynamic stability is analyzed.",

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T1 - Numerical Analysis of the Influence of Superconductor and Magnet Material Parameters on the Dynamic Stability of Maglev Systems

AU - Huang, Chen Guang

AU - Xu, Bin

PY - 2019/10/17

Y1 - 2019/10/17

N2 - In previous research, a two-dimensional numerical model based on Newton's second law and Maxwell's equations was developed to analyze the dynamic behavior of superconducting maglev systems. Studies showed that vibration and drift phenomena will occur in the vertical and lateral directions triggered by external disturbances, resulting in a change in the levitation point and even instability. In this paper, a numerical analysis is further carried out to alleviate these situations. The dependence of the drifts of vertical and lateral vibration centers of the levitated body upon system material parameters, such as the magnetization of permanent magnets and the critical current density of superconductor, is studied in terms of a power law model. In addition, the influence of the configuration of permanent magnets on the dynamic stability is analyzed.

AB - In previous research, a two-dimensional numerical model based on Newton's second law and Maxwell's equations was developed to analyze the dynamic behavior of superconducting maglev systems. Studies showed that vibration and drift phenomena will occur in the vertical and lateral directions triggered by external disturbances, resulting in a change in the levitation point and even instability. In this paper, a numerical analysis is further carried out to alleviate these situations. The dependence of the drifts of vertical and lateral vibration centers of the levitated body upon system material parameters, such as the magnetization of permanent magnets and the critical current density of superconductor, is studied in terms of a power law model. In addition, the influence of the configuration of permanent magnets on the dynamic stability is analyzed.

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DO - 10.1088/1757-899X/649/1/012026

M3 - 会议文章

AN - SCOPUS:85075243076

SN - 1757-8981

VL - 649

JO - IOP Conference Series: Materials Science and Engineering

JF - IOP Conference Series: Materials Science and Engineering

IS - 1

M1 - 012026

T2 - 2019 World Symposium on Smart Materials and Applications, WSSMA 2019

Y2 - 5 July 2019 through 7 July 2019

ER -

Numerical Analysis of the Influence of Superconductor and Magnet Material Parameters on the Dynamic Stability of Maglev Systems

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